JP2783836B2 - Torque converter - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a torque converter for converting and transmitting torque, and in particular, a pair of bearings for supporting a thrust load acting on a stator impeller. The present invention relates to a torque converter arranged with a car interposed therebetween.

[Prior Art] A torque converter has conventionally been known as one of means for increasing a driving torque of a power source and transmitting the driving torque to a wave side. Various patent applications for improved inventions of such a torque converter have been filed.

As an improved torque converter, for example, a torque converter shown in FIG. 5 has been filed by the present applicant (Japanese Patent Application No. 63-276737).

As is clear from FIG.
A drive plate 3 is connected to an output shaft 2 of a power source such as an engine, and a pump impeller 4 is connected to the drive plate 3. A space 5 formed by the drive plate 3 and the pump impeller 4 is filled with a working fluid such as oil. Further, a turbine impeller 6 is disposed so as to face the pump impeller 4, and the turbine impeller 6 is, for example, a turbine that is spline-fitted to a driven input shaft 7 such as an automatic transmission. It is connected to a hub 8. Further, a stator impeller 9 is provided between the pump impeller 4 and the turbine impeller 6. The stator impeller 9 is supported via a one-way clutch 10 on a stator shaft 11 fixed to a housing (not shown) of the transmission so as to be rotatable only in one direction.

A washer 12 made of aluminum is provided on the front side (left side in the figure) of the stator impeller 9, and the washer 12 is fixed to the stator impeller 9 by a retaining ring 13.
It is fixed to.

A first bearing 14 is interposed between the washer 12 and the turbine hub 8, and supports a thrust load toward the rear of the turbine impeller 6 by the first bearing 14. As is clear from FIG. 6, one race 14a of the first bearing 14 is accommodated in a recess 8a formed in the turbine hub 8. The depth of the recess 8a is set to be substantially the same as or slightly smaller than the height of the race 14a and the roller 14c. The other race 14b of the first bearing 14 is mounted on the shaft 12a of the washer 12.

A washer 9a is formed integrally with the stator impeller 9 on the rear side (the right side in the figure) of the stator impeller 9. A second bearing 16 is provided between the washer portion 9a and the flange-like portion 15a of the sleeve-like member 15 which is welded to the pump impeller 4. This second bearing 16
The bearing supports a thrust force toward the rear (to the right in the figure) of the stator impeller 9 and has a larger bearing capacity than the first bearing 14. That is, during the operation of the torque converter 1, the pump impeller 4 receives a leftward force in the figure due to the reaction force of the flow of the hydraulic oil, and the turbine impeller 6 receives the flow of the hydraulic oil to the stator impeller 9. The rightward force is received by the generated reaction force, and the stator impeller 9 receives the rightward force by the hydraulic oil flowing from the turbine impeller 8, so that the thrust force supported by the second bearing 16 is reduced. Is greater than the thrust force supported by the first bearing 14. For this reason, the bearing capacity of the second bearing 16 is set to be larger than that of the first bearing 14. Therefore, the second bearing 16
Is set to be larger than the diameter of the first bearing 14. One race 16a of the second bearing 16 is a flange-like member 15a.
The depth of the recess 15b is set to be substantially the same as the height of the race 16a and the roller 16c. The other race 16b is fitted and assembled to the shaft 9b of the washer portion 9a. The diameter of the race 16b is set to be larger than the diameter of the concave fitting portion 8a of the turbine hub 8. The diameter of the shaft 12a and the diameter of the shaft 9b are set substantially equal.

[Problems to be Solved by the Invention] However, the first bearing 14 that supports the thrust force of the stator impeller 9 in such a torque converter 1.
In the structure of the second bearing 16, the other races 14b, 16b
Are the shaft 12a of the washer 12 and the stator impeller 9 respectively.
Is simply fitted to the shaft 9b of the washer portion 9a of
Moreover, since the coaxial 9b and 12a are set to the same diameter,
The other race 14b of the first bearing 14 and the other race 16b of the second bearing 16 are assembled in exactly the same manner. For this reason, the race 14b of the first bearing 14 is wrongly assembled to the second bearing 16 side, or the other race 16b of the second bearing 16 is
Is mistakenly attached to the first bearing 14 side.

In addition, even if the race 16b is erroneously assembled, for example, the depth of the concave fitting portion 8a of the turbine hub 8 is set smaller than the height of the one race 14a of the first bearing 14 and the roller 14c. Hub 8, first and second bearings 1
The height (length in the axial direction) of the subassembly formed by assembling the 4, 4, the stator impeller 9, the one-way clutch 10, and the sleeve-like member 15 hardly changes. Therefore, when inspecting the height of this subassembly, race 16
Misassembly of b cannot be reliably detected.

On the other hand, similarly, not only can the erroneous assembly of the race 14b of the first bearing 14 be prevented, but also if the race 14b is erroneously assembled, it cannot be detected at all. .

When the race 14b of the first bearing 14 and the race 16b of the second bearing 16 are assembled by mistake, not only can each bearing not exert its original bearing function, but also the second bearing 16 side Race of the first bearing 14 assembled
14b may be damaged.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a torque converter that can reliably prevent erroneous assembly of a bearing that supports a stator impeller in a thrust direction. It is.

[Means for Solving the Problems] In order to solve such problems, the present invention will be described with reference to FIG.
The depth of the recessed portion 8a of the turbine hub 8 in which a is accommodated is set to be larger than the combined height of the race 14a of the first bearing 14 and the roller 14c.

Also, as shown in FIG.
b, a hole 14c is formed to fit into the shaft 12a of the washer 12, and four inwardly projecting protrusions are formed on the inner peripheral edge thereof.
Are formed at substantially equal intervals. On the other hand, a groove 12b in which these projections 14d, 14d,.

Also, as shown in FIG. 3, the other race of the second bearing 16
A hole 16c is formed in the shaft 16b to be fitted to the shaft 9b of the washer portion 9a of the stator impeller 9, and an inner peripheral edge thereof has
Four protrusions 16d, 16d,... Protruding inward are formed at substantially equal intervals. On the other hand, a shaft 9b of the washer portion 9a is formed with a groove 9c in which the projections 16d, 16d,.

The circumferential width a of the protrusion 14d formed on the other race 14b of the first bearing 14 is set larger than the circumferential width b of the protrusion 16d of the second bearing 16, and the protrusion 14d is fitted. The width of the matching groove 12b is set to be larger than the width of the groove 9c into which the protrusion 16d fits. Moreover, in that case, the width a of the protrusion 12b
Is set to be larger than the width b of the groove 16b.

[Operation and Effect of the Invention] In the torque converter of the present invention configured as described above, if the race 16b of the second bearing 16 is erroneously assembled to the first bearing 14 side, the race 16b is It hits the bearing guide portion 8b of the peripheral protrusion forming the concave fitting portion 8a and is not fitted into the concave fitting portion 8a. For this reason,
The above-described height of the sub-assembly becomes considerably larger than a predetermined value, and by detecting an abnormality of the height during the inspection of the sub-assembly, the erroneous assembly of the race 16b can be easily and reliably detected.

If the race 14b of the first bearing 14 is erroneously assembled to the second bearing 16 side, the protrusion 14d formed on the race 14b has a width a of the washer portion 9a of the stator impeller 9.
Groove 9c cannot be fitted into the groove 9c. That is, the race 14d cannot be assembled to the washer portion 9a.

As described above, according to the present invention, erroneous assembly of the races 14d and 16d can be reliably prevented.

Further, according to the present invention, the depth of the concave fitting portion 8a of the turbine hub 8 that accommodates the first bearing 14 is formed larger than that of the torque converter of the above-mentioned prior application, so that the concave fitting portion 8a The length between the contact surface of the first bearing 14 and the front end surface of the turbine hub 8 is reduced, and the axial dimension of the torque converter 1 can be reduced.

Embodiment An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a partially enlarged view similar to FIG. 6, showing an embodiment of a torque converter according to the present invention. The same components as those of the torque converter according to the prior application shown in FIGS. 5 and 6 are denoted by the same reference numerals, and detailed description thereof will be omitted.

In FIG. 1, a first bearing 14 is provided between a turbine hub 8 and a washer 12 provided at a front portion of a stator impeller 9 as in the invention of the prior application. The concave fitting portion 8 of the turbine hub 8 in which one race 14a of the first bearing 14 is housed.
a is set so that its depth is greater than the combined height of the race 14a and the roller 14c. Therefore, the first bearing
A part of the other race 14b of 14 fits into the concave fitting portion 8a. In order to increase the depth of the recess 8a, the bearing guide 8b may be extended toward the stator impeller 9 or the recess 8a may be cut more.

As shown in FIG. 2, the other race of the first bearing 14
14b is provided with a hole 14c for fitting to the shaft 12a of the washer 12, and four inwardly projecting projections 14d, 14d,. It is formed. On the other hand, these projections 14d and 14d are attached to the shaft 12a of the washer 12.
Grooves 12b into which d,... fit are formed corresponding to the respective projections 14d.

Also, as shown in FIG. 1, a sleeve-like member 15 connected to the washer portion 9a of the stator impeller 9 and the pump impeller 4.
A second bearing 16 is disposed between the second bearing 16 and the flange portion 15a. One race 16a of the second bearing 16 is accommodated in a recess 15b formed in the flange 15a of the sleeve-like member 15. The depth of the recess 15b is set substantially equal to the combined height of the other race 16b and the roller 16c. A hole 16e is formed in the other race 16b of the second bearing 16 so as to fit into the shaft 9b of the washer portion 9a of the stator impeller 9, and the inner peripheral edge of the hole 16e projects inward. Are formed at approximately equal intervals. On the other hand, these projections 16 are provided on the shaft 9b of the washer portion 9a.
A groove 9c into which d, 16d,... fit is formed.

The circumferential width a of the protrusion 14d formed on the other race 14b of the first bearing 14 is set to be larger than the circumferential width b of the protrusion 16d of the second bearing 16. Therefore, the width of the groove 12b in which the protrusion 14d fits is also larger than the width of the groove in which the protrusion 16d fits. In this case, the width b of the projection 14d is set to be larger than the width of the groove in which the projection 16d fits, and the width b of the projection 14d cannot fit in the groove in which the projection 16d fits.

In the torque converter 1 configured as described above, when the race 16b of the second bearing 16 is erroneously assembled on the first bearing 14 side, the race 16b forms a concave fitting portion 8a of the turbine hub 8. It hits the bearing guide portion 8b, which is a peripheral protruding portion, and is not fitted into the concave fitting portion 8a. For this reason, the height of the sub-assembly in which the turbine hub 8, the first and second bearings 14, 16, the washer 12, the one-way clutch 10 and the stator impeller 9 are integrally assembled is an abnormal value considerably larger than a predetermined value. Becomes And
Since an abnormality of the height is detected at the time of inspection of the sub-assembly, erroneous assembly of the race 16b is detected.

If the race 14b of the first bearing 14 is erroneously assembled to the second bearing 16 side, the protrusion 14d formed on the race 14b has a width a of the washer portion 9 of the stator impeller 9.
Since it is larger than the groove width formed in a, it cannot fit into the groove. Therefore, it is impossible to attach the race 14b to the washer portion 9a.

FIG. 4 is a view showing a modification of the race 14b of the first bearing 14.

As is apparent from FIG. 4, the projections 14d are not arranged at equal intervals in the race 14b. That together is set narrower between the first protrusion 14d ₁ and second protrusion 14d _2, and between the third protrusion 14d ₃ and the fourth projection 14d _4, second
And between the fourth projection 14d ₄ of the projection 14d ₂ and the third projection 14d ₃ and the first protrusion 14d ₁ is set wider. In the race 14b of this modification, the first projection 14d ₁ and the third projection 14d
₃ and second protrusion 14d ₂ and the fourth projection 14d ₄ is arranged to be substantially diagonally, respectively. Further, grooves formed on the shaft 12a of the washer 12 into which these protrusions fit are also provided.
The projections are arranged corresponding to these projections. On the other hand, the race 16b of the second bearing 16 is formed in exactly the same manner as the race 16b shown in FIG. In that case, the width of the race 14d is set equal to the width b of the race 16d.

In such a race 14b, the position of each projection and the shaft of the washer 9a are
Since the position of each groove of 9b does not match, race 14
b cannot be mounted on the shaft of the washer portion 9a.
Therefore, erroneous assembly of the race 14b is reliably prevented. On the other hand, even if the race 16b of the second bearing 16 is erroneously assembled on the side of the first bearing 14, the positions of the projections 16d do not match the positions of the grooves of the shaft 12a of the washer 12, so that Cannot be mounted on the shaft 12a of the washer 12. Therefore, the erroneous assembly of the race 16b is reliably prevented. In the case of this modification,
Since the race 16b of the second bearing 16 cannot be assembled to the shaft 12a of the washer 12, the depth of the concave fitting portion 8a of the turbine hub 8 is one side as in the above-mentioned prior application, as in the above-described embodiment. Even if the height is smaller than the combined height of the race 14a and the roller 14c, the erroneous assembly of the race 16b is reliably prevented.

The present invention is not limited to the above-described embodiment, and various design changes are possible.

For example, in FIG. 4, the intervals between the projections 14d of the first bearing 14 are set differently, but the intervals between the projections of the second bearing 16 may be changed. The intervals between the projections may all be different, or only one may be different. Further, the number of projections can be set to an appropriate number other than four.

In the above-described embodiment, the torque converter 1 in which the washer portion 9a is formed integrally with the stator impeller 9 has been described. However, in the present invention, the washer portion 9a is
As described above, the present invention can also be applied to a torque converter provided separately. Further, in the above-described embodiment, the outer race 10a of the one-way clutch 10 is cast integrally with the stator impeller 9. However, in the related art, the outer race 10a is provided separately from the stator impeller 9. It goes without saying that the present invention can be applied to a typical torque converter.

As is apparent from the above description, according to the present invention, if the thrust bearing race of the stator impeller is erroneously assembled, the axial length of the sub-assembly of the stator impeller becomes abnormally long, This makes it impossible to assemble the race, so that erroneous assembling of the race can be reliably prevented.

Further, according to the present invention, the depth of the concave fitting portion of the turbine hub that houses the first bearing is formed to be deeper than that of the conventional torque converter. In this case, the length between the first bearing contact surface of the recessed portion and the front end surface of the turbine hub is reduced. Therefore, the axial dimension of the torque converter can be reduced.

[Brief description of the drawings]

FIG. 1 is a partially enlarged view partially showing an embodiment of a torque converter according to the present invention, and FIG. 2 is a sectional view taken along the line II-II in FIG.
FIG. 3 is a cross-sectional view taken along the line III-III in FIG. 1, FIG. 4 is a plan view showing a modified example of the race in one bearing, and FIG. FIG. 6 is a longitudinal sectional view showing the upper half of the torque converter, and FIG. 6 is a partially enlarged view showing the torque converter of FIG. 5 in a partially enlarged manner. 1 ... torque converter, 4 ... pump impeller, 6 ...
Turbine impeller, 8: turbine hub (member supporting first bearing), 8a: recessed fitting portion, 9: stator impeller, 14
... First bearing, 14a Turbine side race, 14b Stator impeller, 16 Second bearing 16b, Stator impeller race

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A 2-48658 (JP, U) JP-A 64-35242 (JP, U) JP-B 54-14262 (JP, B2) (58) Field (Int.Cl. ⁶ , DB name) F16H 41 / 24,41 / 28 F16C 35/00-35/078

Claims (2)

(57) [Claims] A pump impeller rotatably driven by a power source; a turbine impeller driven by a hydraulic fluid discharged from the pump impeller to generate an output; and a pump impeller and a turbine impeller. A first impeller rotatably supported by the stator shaft in only one direction, and a first bearing having different bearing capacities arranged axially across the stator impeller to support a thrust load of the stator impeller. And a second bearing, wherein the first bearing is disposed on the turbine impeller side, and the second bearing is disposed on the pump impeller side, and supports the first bearing. A substantially circular recessed portion is formed in the member for accommodating the race on the member side of the first bearing;
The diameter of the concave fitting portion is set smaller than the diameter of the stator impeller-side race of the second bearing, and the depth of the concave fitting portion is equal to that of the race of the first bearing on the member side. A torque converter characterized in that the height is set to be greater than the height of the bearing together with the rollers. 2. The first bearing-side race and the second bearing-side race are each formed with a projection that is fitted to a member that supports the first and second bearings, and the width of the projection is formed. Are set to be different on the first bearing side and on the second bearing side, respectively.
The torque converter as described.